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The missing sulphur in mattheddleite, sulphur analysis of sulphates, and paragenetic relations at Leadhills, Scotland

¹ Department of Geological Sciences, University of Michigan, Ann Arbor MI 48109-1063, USA
² 6, St. Ronan’s Terrace, Innerleithen, Peeblesshire EH44 6RB, UK

^* E-mail: essene{at}umich.edu

Published electron microprobe analyses of mattheddleite, a lead sulpho-silicate apatite from Leadhills, Scotland, have 9–13% IV site deficiencies. However, galena was used as a standard for S, which suggested that low S resulted from a shift in the S-K peak. Wavelength scans with a PET crystal show that the S-K peak is shifted down by 0.0026 Å for sulphates relative to sulphides. Quantitative analyses show a ~30% increase of S in mattheddleite using a celestite standard, which fills the IV site, but with Si > S, on average Pb₅S_1.2Si_1.8O_11.7Cl_0.6(OH)_0.4. Direct analysis of oxygen with the electron microprobe implies that the charge imbalance engendered from the inequality of Si and S is compensated with substitution of a vacancy (), as in Pb₅S_1.2Si_1.8[O_11.70.3][Cl_0.6(OH)_0.4] or Pb₅S_1.2Si_1.8[O_11.7(Cl,OH)_0.3][Cl_,OH)_0.70.3]. Calculation of OH as 1–Cl suggests the presence of both OH- and Cl-dominant mattheddleite at Leadhills, but direct analysis of H is needed to confirm the dominance of OH in the channel site. Wavelength-dispersive analyses of S in apatite and other sulphates must be undertaken with sulphate standards: use of sulphide standards yields a negative error on the order of 10–20% in the resultant S concentration. Reactions of mattheddleite with other Pb minerals at Leadhills show that their stability depends on fluid composition as well as pressure and temperature. An X-ray map of Cl shows complex zoning between Cl-poor and Cl-rich mattheddleite, recording rapid changes in the fluid chemistry during late-stage hydrothermal processes at Leadhills.

KEYWORDS: mattheddleite, sulphate, apatite, wavelength shift, Cl migration, Leadhills, phase equilibria